CWDM

Part No : C-CWDM-SFP-10G-1470

The CWDM-SFP-10G-1470 optical transceiver module has been purposely designed for use in fiber channel links and configured for high speed 10G data transmissions. The Module is built to provide 100 Ohms deferential between Transmitter input and Receiv Read More >

Part No : C-CWDM-SFP-10G-1490

The CWDM-SFP-10G-1490 optical transceiver module has been purposely designed for use in fiber channel links and configured for high speed 10G data transmissions. The Module is built to provide 100 Ohms deferential between Transmitter input and Receiv Read More >

Part No : C-CWDM-SFP-10G-1510

The CWDM-SFP-10G-1510 optical transceiver module has been purposely designed for use in fiber channel links and configured for high speed 10G data transmissions. The Module is built to provide 100 Ohms deferential between Transmitter input and Receiv Read More >

Part No : C-CWDM-SFP-10G-1530

The CWDM-SFP-10G-1530 optical transceiver module has been purposely designed for use in fiber channel links and configured for high speed 10G data transmissions. The Module is built to provide 100 Ohms deferential between Transmitter input and Receiv Read More >

Part No : C-CWDM-SFP-10G-1570

The CWDM-SFP-10G-1570 optical transceiver module has been purposely designed for use in fiber channel links and configured for high speed 10G data transmissions. The Module is built to provide 100 Ohms deferential between Transmitter input and Receiv Read More >

Part No : C-CWDM-SFP-10G-1590

The CWDM-SFP-10G-1590 optical transceiver module has been purposely designed for use in fiber channel links and configured for high speed 10G data transmissions. The Module is built to provide 100 Ohms deferential between Transmitter input and Receiv Read More >

Part No : C-CWDM-SFP-10G-1610

The CWDM-SFP-10G-1610 optical transceiver module has been purposely designed for use in fiber channel links and configured for high speed 10G data transmissions. The Module is built to provide 100 Ohms deferential between Transmitter input and Receiv Read More >